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/**
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*
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* \section COPYRIGHT
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*
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* Copyright 2013-2021 Software Radio Systems Limited
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*
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* By using this file, you agree to the terms and conditions set
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* forth in the LICENSE file which can be found at the top level of
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* the distribution.
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*
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*/
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#ifndef SRSRAN_RLC_AM_DATA_STRUCTS_H
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#define SRSRAN_RLC_AM_DATA_STRUCTS_H
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#include "srsran/adt/circular_buffer.h"
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#include "srsran/adt/circular_map.h"
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#include "srsran/adt/intrusive_list.h"
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#include "srsran/common/buffer_pool.h"
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#include <array>
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#include <vector>
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namespace srsran {
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template <typename header_t>
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class rlc_amd_tx_pdu;
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template <typename header_t>
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class pdcp_pdu_info;
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/// Pool that manages the allocation of RLC AM PDU Segments to RLC PDUs and tracking of segments ACK state
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template <typename header_t>
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struct rlc_am_pdu_segment_pool {
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const static size_t MAX_POOL_SIZE = 16384;
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/// RLC AM PDU Segment, containing the PDCP SN and RLC SN it has been assigned to, and its current ACK state
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using rlc_list_tag = default_intrusive_tag;
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struct free_list_tag {};
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struct segment_resource : public intrusive_forward_list_element<rlc_list_tag>,
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public intrusive_forward_list_element<free_list_tag>,
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public intrusive_double_linked_list_element<> {
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const static uint32_t invalid_rlc_sn = std::numeric_limits<uint32_t>::max();
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const static uint32_t invalid_pdcp_sn = std::numeric_limits<uint32_t>::max() - 1; // -1 for Status Report
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int id() const { return std::distance(parent_pool->segments.cbegin(), this); }
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void release_pdcp_sn()
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{
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pdcp_sn_ = invalid_pdcp_sn;
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if (empty()) {
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parent_pool->free_list.push_front(this);
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}
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}
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void release_rlc_sn()
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{
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rlc_sn_ = invalid_rlc_sn;
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if (empty()) {
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parent_pool->free_list.push_front(this);
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}
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}
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uint32_t rlc_sn() const { return rlc_sn_; }
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uint32_t pdcp_sn() const { return pdcp_sn_; }
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bool empty() const { return rlc_sn_ == invalid_rlc_sn and pdcp_sn_ == invalid_pdcp_sn; }
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private:
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friend struct rlc_am_pdu_segment_pool<header_t>;
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uint32_t rlc_sn_ = invalid_rlc_sn;
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uint32_t pdcp_sn_ = invalid_pdcp_sn;
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rlc_am_pdu_segment_pool<header_t>* parent_pool = nullptr;
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};
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rlc_am_pdu_segment_pool()
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{
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for (segment_resource& s : segments) {
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s.parent_pool = this;
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free_list.push_front(&s);
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}
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}
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rlc_am_pdu_segment_pool(const rlc_am_pdu_segment_pool&) = delete;
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rlc_am_pdu_segment_pool(rlc_am_pdu_segment_pool&&) = delete;
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rlc_am_pdu_segment_pool& operator=(const rlc_am_pdu_segment_pool&) = delete;
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rlc_am_pdu_segment_pool& operator=(rlc_am_pdu_segment_pool&&) = delete;
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bool has_segments() const { return not free_list.empty(); }
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bool make_segment(rlc_amd_tx_pdu<header_t>& rlc_list, pdcp_pdu_info<header_t>& pdcp_list)
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{
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if (not has_segments()) {
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return false;
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}
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segment_resource* segment = free_list.pop_front();
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segment->rlc_sn_ = rlc_list.rlc_sn;
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segment->pdcp_sn_ = pdcp_list.sn;
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rlc_list.add_segment(*segment);
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pdcp_list.add_segment(*segment);
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return true;
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}
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private:
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intrusive_forward_list<rlc_am_pdu_segment_pool<header_t>::segment_resource, free_list_tag> free_list;
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std::array<rlc_am_pdu_segment_pool<header_t>::segment_resource, MAX_POOL_SIZE> segments;
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};
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/// Class that contains the parameters and state (e.g. segments) of a RLC PDU
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template <typename header_t>
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class rlc_amd_tx_pdu
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{
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using rlc_am_pdu_segment = typename rlc_am_pdu_segment_pool<header_t>::segment_resource;
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using list_type = intrusive_forward_list<rlc_am_pdu_segment>;
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const static uint32_t invalid_rlc_sn = std::numeric_limits<uint32_t>::max();
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list_type list;
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public:
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using iterator = typename list_type::iterator;
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using const_iterator = typename list_type::const_iterator;
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const uint32_t rlc_sn = invalid_rlc_sn;
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uint32_t retx_count = 0;
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header_t header;
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unique_byte_buffer_t buf;
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explicit rlc_amd_tx_pdu(uint32_t rlc_sn_) : rlc_sn(rlc_sn_) {}
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rlc_amd_tx_pdu(const rlc_amd_tx_pdu&) = delete;
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rlc_amd_tx_pdu(rlc_amd_tx_pdu&& other) noexcept = default;
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rlc_amd_tx_pdu& operator=(const rlc_amd_tx_pdu& other) = delete;
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rlc_amd_tx_pdu& operator=(rlc_amd_tx_pdu&& other) = delete;
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~rlc_amd_tx_pdu()
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{
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while (not list.empty()) {
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// remove from list
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rlc_am_pdu_segment* segment = list.pop_front();
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// deallocate if also removed from PDCP
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segment->release_rlc_sn();
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}
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}
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// Segment List Interface
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void add_segment(rlc_am_pdu_segment& segment) { list.push_front(&segment); }
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const_iterator begin() const { return list.begin(); }
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const_iterator end() const { return list.end(); }
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iterator begin() { return list.begin(); }
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iterator end() { return list.end(); }
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};
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/// Class that contains the parameters and state (e.g. unACKed segments) of a PDCP PDU
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template <typename header_t>
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class pdcp_pdu_info
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{
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using rlc_am_pdu_segment = typename rlc_am_pdu_segment_pool<header_t>::segment_resource;
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using list_type = intrusive_double_linked_list<rlc_am_pdu_segment>;
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list_type list; // List of unACKed RLC PDUs that contain segments that belong to the PDCP PDU.
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public:
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const static uint32_t status_report_sn = std::numeric_limits<uint32_t>::max();
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const static uint32_t invalid_pdcp_sn = std::numeric_limits<uint32_t>::max() - 1;
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using iterator = typename list_type::iterator;
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using const_iterator = typename list_type::const_iterator;
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// Copy is forbidden to avoid multiple PDCP SN references to the same segment
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pdcp_pdu_info() = default;
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pdcp_pdu_info(pdcp_pdu_info&&) noexcept = default;
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pdcp_pdu_info(const pdcp_pdu_info&) noexcept = delete;
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pdcp_pdu_info& operator=(const pdcp_pdu_info&) noexcept = delete;
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pdcp_pdu_info& operator=(pdcp_pdu_info&&) noexcept = default;
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~pdcp_pdu_info() { clear(); }
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uint32_t sn = invalid_pdcp_sn;
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bool fully_txed = false; // Boolean indicating if the SDU is fully transmitted.
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bool fully_acked() const { return fully_txed and list.empty(); }
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bool valid() const { return sn != invalid_pdcp_sn; }
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// Interface for list of unACKed RLC segments of the PDCP PDU
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void add_segment(rlc_am_pdu_segment& segment) { list.push_front(&segment); }
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void ack_segment(rlc_am_pdu_segment& segment)
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{
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// remove from list
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list.pop(&segment);
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// signal pool that the pdcp handle is released
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segment.release_pdcp_sn();
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}
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void clear()
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{
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sn = invalid_pdcp_sn;
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fully_txed = false;
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while (not list.empty()) {
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ack_segment(list.front());
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}
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}
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const_iterator begin() const { return list.begin(); }
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const_iterator end() const { return list.end(); }
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};
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template <class T, std::size_t WINDOW_SIZE>
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struct rlc_ringbuffer_t {
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T& add_pdu(size_t sn)
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{
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srsran_expect(not has_sn(sn), "The same SN=%zd should not be added twice", sn);
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window.overwrite(sn, T(sn));
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return window[sn];
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}
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void remove_pdu(size_t sn)
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{
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srsran_expect(has_sn(sn), "The removed SN=%zd is not in the window", sn);
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window.erase(sn);
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}
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T& operator[](size_t sn) { return window[sn]; }
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size_t size() const { return window.size(); }
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bool empty() const { return window.empty(); }
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void clear() { window.clear(); }
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bool has_sn(uint32_t sn) const { return window.contains(sn); }
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// Return the sum data bytes of all active PDUs (check PDU is non-null)
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uint32_t get_buffered_bytes()
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{
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uint32_t buff_size = 0;
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for (const auto& pdu : window) {
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if (pdu.second.buf != nullptr) {
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buff_size += pdu.second.buf->N_bytes;
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}
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}
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return buff_size;
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}
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private:
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srsran::static_circular_map<uint32_t, T, WINDOW_SIZE> window;
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};
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template <typename header_t>
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struct buffered_pdcp_pdu_list {
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public:
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explicit buffered_pdcp_pdu_list() : buffered_pdus(buffered_pdcp_pdu_list::buffer_size) { clear(); }
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void clear()
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{
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count = 0;
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for (pdcp_pdu_info<header_t>& b : buffered_pdus) {
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b.clear();
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}
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}
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void add_pdcp_sdu(uint32_t sn)
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{
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srsran_expect(sn <= max_pdcp_sn or sn == status_report_sn, "Invalid PDCP SN=%d", sn);
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srsran_assert(not has_pdcp_sn(sn), "Cannot re-add same PDCP SN twice");
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pdcp_pdu_info<header_t>& pdu = get_pdu_(sn);
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if (pdu.valid()) {
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pdu.clear();
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count--;
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}
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pdu.sn = sn;
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count++;
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}
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void clear_pdcp_sdu(uint32_t sn)
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{
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pdcp_pdu_info<header_t>& pdu = get_pdu_(sn);
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if (not pdu.valid()) {
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{
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return;
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}
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pdu.clear();
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count--;
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}
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}
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pdcp_pdu_info<header_t>& operator[](uint32_t sn)
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{
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srsran_expect(has_pdcp_sn(sn), "Invalid access to non-existent PDCP SN=%d", sn);
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return get_pdu_(sn);
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}
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bool has_pdcp_sn(uint32_t pdcp_sn) const
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{
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srsran_expect(pdcp_sn <= max_pdcp_sn or pdcp_sn == status_report_sn, "Invalid PDCP SN=%d", pdcp_sn);
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return get_pdu_(pdcp_sn).sn == pdcp_sn;
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}
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uint32_t nof_sdus() const { return count; }
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private:
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const static size_t max_pdcp_sn = 262143u;
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const static size_t buffer_size = 4096u;
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const static uint32_t status_report_sn = pdcp_pdu_info<header_t>::status_report_sn;
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pdcp_pdu_info<header_t>& get_pdu_(uint32_t sn)
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{
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return (sn == status_report_sn) ? status_report_pdu : buffered_pdus[static_cast<size_t>(sn % buffer_size)];
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}
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const pdcp_pdu_info<header_t>& get_pdu_(uint32_t sn) const
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{
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return (sn == status_report_sn) ? status_report_pdu : buffered_pdus[static_cast<size_t>(sn % buffer_size)];
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}
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// size equal to buffer_size
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std::vector<pdcp_pdu_info<header_t> > buffered_pdus;
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pdcp_pdu_info<header_t> status_report_pdu;
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uint32_t count = 0;
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};
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} // namespace srsran
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#endif // SRSRAN_RLC_AM_DATA_STRUCTS_H
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